Robot vision: Obstacle-avoidance techniques for unmanned aerial vehicles

Raffaella Carloni; Vincenzo Lippiello; Massimo D'Auria; Matteo Fumagalli; Abeje Y. Mersha; Stefano Stramigioli; Bruno Siciliano

doi:10.1109/MRA.2013.2283632

Robot vision: Obstacle-avoidance techniques for unmanned aerial vehicles

Raffaella Carloni, Vincenzo Lippiello, Massimo D'Auria, Matteo Fumagalli, Abeje Y. Mersha, Stefano Stramigioli, Bruno Siciliano

Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › peer review

31 Citationer (Scopus)

Abstract

In this article, a vision-based technique for obstacle avoidance and target identification is combined with haptic feedback to develop a new teleoperated navigation system for underactuated aerial vehicles in unknown environments. A three-dimensional (3-D) map of the surrounding environment is built by matching the keypoints among several images, which are acquired by an onboard camera and stored in a buffer together with the corresponding estimated odometry. Hence, based on the 3-D map, a visual identification algorithm is employed to localize both obstacles and the desired target to build a virtual field accordingly. A bilateral control system has been developed such that an operator can safely navigate in an unknown environment and perceive it by means of a vision-based haptic force-feedback device. Experimental tests in an indoor environment verify the effectiveness of the proposed teleoperated control.

Originalsprog	Engelsk
Artikelnummer	6651701
Tidsskrift	IEEE Robotics and Automation Magazine
Vol/bind	20
Udgave nummer	4
Sider (fra-til)	22-31
Antal sider	10
ISSN	1070-9932
DOI	https://doi.org/10.1109/MRA.2013.2283632
Status	Udgivet - dec. 2013

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10.1109/MRA.2013.2283632

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Citationsformater

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title = "Robot vision: Obstacle-avoidance techniques for unmanned aerial vehicles",

abstract = "In this article, a vision-based technique for obstacle avoidance and target identification is combined with haptic feedback to develop a new teleoperated navigation system for underactuated aerial vehicles in unknown environments. A three-dimensional (3-D) map of the surrounding environment is built by matching the keypoints among several images, which are acquired by an onboard camera and stored in a buffer together with the corresponding estimated odometry. Hence, based on the 3-D map, a visual identification algorithm is employed to localize both obstacles and the desired target to build a virtual field accordingly. A bilateral control system has been developed such that an operator can safely navigate in an unknown environment and perceive it by means of a vision-based haptic force-feedback device. Experimental tests in an indoor environment verify the effectiveness of the proposed teleoperated control.",

author = "Raffaella Carloni and Vincenzo Lippiello and Massimo D'Auria and Matteo Fumagalli and Mersha, {Abeje Y.} and Stefano Stramigioli and Bruno Siciliano",

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AU - Carloni, Raffaella

AU - Lippiello, Vincenzo

AU - D'Auria, Massimo

AU - Fumagalli, Matteo

AU - Mersha, Abeje Y.

AU - Stramigioli, Stefano

AU - Siciliano, Bruno

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N2 - In this article, a vision-based technique for obstacle avoidance and target identification is combined with haptic feedback to develop a new teleoperated navigation system for underactuated aerial vehicles in unknown environments. A three-dimensional (3-D) map of the surrounding environment is built by matching the keypoints among several images, which are acquired by an onboard camera and stored in a buffer together with the corresponding estimated odometry. Hence, based on the 3-D map, a visual identification algorithm is employed to localize both obstacles and the desired target to build a virtual field accordingly. A bilateral control system has been developed such that an operator can safely navigate in an unknown environment and perceive it by means of a vision-based haptic force-feedback device. Experimental tests in an indoor environment verify the effectiveness of the proposed teleoperated control.

AB - In this article, a vision-based technique for obstacle avoidance and target identification is combined with haptic feedback to develop a new teleoperated navigation system for underactuated aerial vehicles in unknown environments. A three-dimensional (3-D) map of the surrounding environment is built by matching the keypoints among several images, which are acquired by an onboard camera and stored in a buffer together with the corresponding estimated odometry. Hence, based on the 3-D map, a visual identification algorithm is employed to localize both obstacles and the desired target to build a virtual field accordingly. A bilateral control system has been developed such that an operator can safely navigate in an unknown environment and perceive it by means of a vision-based haptic force-feedback device. Experimental tests in an indoor environment verify the effectiveness of the proposed teleoperated control.

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Robot vision: Obstacle-avoidance techniques for unmanned aerial vehicles

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